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Decoding Saccadic Directions Using Epidural ECoG in Non-Human Primates

A brain-computer interface (BCI) can be used to restore some communication as an alternative interface for patients suffering from locked-in syndrome. However, most BCI systems are based on SSVEP, P300, or motor imagery, and a diversity of BCI protocols would be needed for various types of patients....

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Autores principales: Lee, Jeyeon, Choi, Hoseok, Lee, Seho, Cho, Baek Hwan, Ahn, Kyoung-ha, Kim, In Young, Lee, Kyoung-Min, Jang, Dong-Pyo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Korean Academy of Medical Sciences 2017
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5494321/
https://www.ncbi.nlm.nih.gov/pubmed/28665058
http://dx.doi.org/10.3346/jkms.2017.32.8.1243
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author Lee, Jeyeon
Choi, Hoseok
Lee, Seho
Cho, Baek Hwan
Ahn, Kyoung-ha
Kim, In Young
Lee, Kyoung-Min
Jang, Dong-Pyo
author_facet Lee, Jeyeon
Choi, Hoseok
Lee, Seho
Cho, Baek Hwan
Ahn, Kyoung-ha
Kim, In Young
Lee, Kyoung-Min
Jang, Dong-Pyo
author_sort Lee, Jeyeon
collection PubMed
description A brain-computer interface (BCI) can be used to restore some communication as an alternative interface for patients suffering from locked-in syndrome. However, most BCI systems are based on SSVEP, P300, or motor imagery, and a diversity of BCI protocols would be needed for various types of patients. In this paper, we trained the choice saccade (CS) task in 2 non-human primate monkeys and recorded the brain signal using an epidural electrocorticogram (eECoG) to predict eye movement direction. We successfully predicted the direction of the upcoming eye movement using a support vector machine (SVM) with the brain signals after the directional cue onset and before the saccade execution. The mean accuracies were 80% for 2 directions and 43% for 4 directions. We also quantified the spatial-spectro-temporal contribution ratio using SVM recursive feature elimination (RFE). The channels over the frontal eye field (FEF), supplementary eye field (SEF), and superior parietal lobule (SPL) area were dominantly used for classification. The α-band in the spectral domain and the time bins just after the directional cue onset and just before the saccadic execution were mainly useful for prediction. A saccade based BCI paradigm can be projected in the 2D space, and will hopefully provide an intuitive and convenient communication platform for users.
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spelling pubmed-54943212017-08-01 Decoding Saccadic Directions Using Epidural ECoG in Non-Human Primates Lee, Jeyeon Choi, Hoseok Lee, Seho Cho, Baek Hwan Ahn, Kyoung-ha Kim, In Young Lee, Kyoung-Min Jang, Dong-Pyo J Korean Med Sci Original Article A brain-computer interface (BCI) can be used to restore some communication as an alternative interface for patients suffering from locked-in syndrome. However, most BCI systems are based on SSVEP, P300, or motor imagery, and a diversity of BCI protocols would be needed for various types of patients. In this paper, we trained the choice saccade (CS) task in 2 non-human primate monkeys and recorded the brain signal using an epidural electrocorticogram (eECoG) to predict eye movement direction. We successfully predicted the direction of the upcoming eye movement using a support vector machine (SVM) with the brain signals after the directional cue onset and before the saccade execution. The mean accuracies were 80% for 2 directions and 43% for 4 directions. We also quantified the spatial-spectro-temporal contribution ratio using SVM recursive feature elimination (RFE). The channels over the frontal eye field (FEF), supplementary eye field (SEF), and superior parietal lobule (SPL) area were dominantly used for classification. The α-band in the spectral domain and the time bins just after the directional cue onset and just before the saccadic execution were mainly useful for prediction. A saccade based BCI paradigm can be projected in the 2D space, and will hopefully provide an intuitive and convenient communication platform for users. The Korean Academy of Medical Sciences 2017-08 2017-06-07 /pmc/articles/PMC5494321/ /pubmed/28665058 http://dx.doi.org/10.3346/jkms.2017.32.8.1243 Text en © 2017 The Korean Academy of Medical Sciences. https://creativecommons.org/licenses/by-nc/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (https://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Article
Lee, Jeyeon
Choi, Hoseok
Lee, Seho
Cho, Baek Hwan
Ahn, Kyoung-ha
Kim, In Young
Lee, Kyoung-Min
Jang, Dong-Pyo
Decoding Saccadic Directions Using Epidural ECoG in Non-Human Primates
title Decoding Saccadic Directions Using Epidural ECoG in Non-Human Primates
title_full Decoding Saccadic Directions Using Epidural ECoG in Non-Human Primates
title_fullStr Decoding Saccadic Directions Using Epidural ECoG in Non-Human Primates
title_full_unstemmed Decoding Saccadic Directions Using Epidural ECoG in Non-Human Primates
title_short Decoding Saccadic Directions Using Epidural ECoG in Non-Human Primates
title_sort decoding saccadic directions using epidural ecog in non-human primates
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5494321/
https://www.ncbi.nlm.nih.gov/pubmed/28665058
http://dx.doi.org/10.3346/jkms.2017.32.8.1243
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